Network topology design

The application of Industrial Ethernet brings up issues of reliability and behaviour of the networks under a demanded load, while preserving the permitted time delay in the whole network. An algorithm that designs network topology, which meets the required fault tolerance and allows reliable communi...

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Published inControl engineering practice Vol. 19; no. 11; pp. 1287 - 1296
Main Authors Fencl, Tomas, Burget, Pavel, Bilek, Jan
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.11.2011
Elsevier
Subjects
Algorithms
Applied sciences
Communication systems
Computer science; control theory; systems
Computer systems and distributed systems. User interface
Computer systems performance. Reliability
Control system synthesis
Control theory. Systems
Design engineering
Exact sciences and technology
Fault tolerance
Genetic algorithms
Genetics
Network reliability
Network topologies
Networks
Representations
Software
Time delay
Topology
Networks
Fault tolerance
Network reliability
Network topologies
Genetic algorithms
Control synthesis
Iterative method
Distributed system
Network topology
Genetic algorithm
Ethernet
Distributed control
Delay time
Reliability
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Abstract The application of Industrial Ethernet brings up issues of reliability and behaviour of the networks under a demanded load, while preserving the permitted time delay in the whole network. An algorithm that designs network topology, which meets the required fault tolerance and allows reliable communication between parts of the control system is proposed. It is an iterative genetic algorithm designing the physical topology and verifying the behaviour under the expected load and time delay in the whole network. It is necessary to propose chromosome representation and required genetic operators as well. The results of the proposed algorithm show that it is suitable especially for the design of control network topologies, which has been its main aim. According to the authors' knowledge there are no other algorithms fulfilling the requirements to such an extent as the proposed algorithm does. ► The designed network has different fault tolerance in different parts of the network. ► The solution found always meets the demands for fault tolerance. ► It is easy to enhance the algorithm for different limitations such as limited node degree etc.
AbstractList The application of Industrial Ethernet brings up issues of reliability and behaviour of the networks under a demanded load, while preserving the permitted time delay in the whole network. An algorithm that designs network topology, which meets the required fault tolerance and allows reliable communication between parts of the control system is proposed. It is an iterative genetic algorithm designing the physical topology and verifying the behaviour under the expected load and time delay in the whole network. It is necessary to propose chromosome representation and required genetic operators as well. The results of the proposed algorithm show that it is suitable especially for the design of control network topologies, which has been its main aim. According to the authors' knowledge there are no other algorithms fulfilling the requirements to such an extent as the proposed algorithm does. ► The designed network has different fault tolerance in different parts of the network. ► The solution found always meets the demands for fault tolerance. ► It is easy to enhance the algorithm for different limitations such as limited node degree etc.
The application of Industrial Ethernet brings up issues of reliability and behaviour of the networks under a demanded load, while preserving the permitted time delay in the whole network. An algorithm that designs network topology, which meets the required fault tolerance and allows reliable communication between parts of the control system is proposed. It is an iterative genetic algorithm designing the physical topology and verifying the behaviour under the expected load and time delay in the whole network. It is necessary to propose chromosome representation and required genetic operators as well. The results of the proposed algorithm show that it is suitable especially for the design of control network topologies, which has been its main aim. According to the authors' knowledge there are no other algorithms fulfilling the requirements to such an extent as the proposed algorithm does.
Author Burget, Pavel
Fencl, Tomas
Bilek, Jan
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Issue 11
Keywords Networks
Fault tolerance
Network reliability
Network topologies
Genetic algorithms
Control synthesis
Iterative method
Distributed system
Network topology
Genetic algorithm
Ethernet
Distributed control
Delay time
Reliability
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Snippet The application of Industrial Ethernet brings up issues of reliability and behaviour of the networks under a demanded load, while preserving the permitted time...
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SubjectTerms Algorithms
Applied sciences
Communication systems
Computer science; control theory; systems
Computer systems and distributed systems. User interface
Computer systems performance. Reliability
Control system synthesis
Control theory. Systems
Design engineering
Exact sciences and technology
Fault tolerance
Genetic algorithms
Genetics
Network reliability
Network topologies
Networks
Representations
Software
Time delay
Topology
Title Network topology design
URI https://dx.doi.org/10.1016/j.conengprac.2011.07.001
https://www.proquest.com/docview/963855266
Volume 19
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